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knock out a battery, although smart munitions against SP guns may change this. As the quoted definition states, "destroy" is one possibility; another is "neutralization": to render the battery temporarily ineffective or unusable, including by suppressing it or forcing it to move. However, "suppression" only lasts while CB fire is falling, and if a hostile battery moves then it has to be found again. Sometimes it is best just to record the location of the hostile battery and leave it for later.
381:, about 1960 an Unmanned Air Vehicle, the SD-1, entered artillery service. This early UAV used wet film photography by day or night, had short range and short endurance. However, being under artillery control they were responsive to CB needs, which was just as well because other forms of air reconnaissance were becoming less available and were not notably timely. Other UAVs, including drones (flying a programmed course) duly emerged, including the ability to transmit imagery in real-time.
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277:. It may produce accurate locations for enemy fire units or merely inputs to a more complex process for locating and assessing hostile artillery. At the end of World War I, the following were recognised as the principal sources of artillery intelligence, this seems to be in descending order of usefulness:
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CB intelligence is usually combined with CB fire control (see below), although intelligence purists recognise this is not good practice and the two were separate in the
British forces in France in World War I. In both World Wars CB intelligence and CB control were found to be most effective when they
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is "fire delivered for the purpose of destroying or neutralising the enemy's fire support system", with the note that it may be proactive or reactive. This may be achieved by attacks on any part of the field artillery system. In some armies at some periods CB has been called counter-bombardment, and
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The arrival of highly networked combat systems allows for data from multiple sources to be cross referenced very quickly. As a result, modern counter battery fire is generally as a result of a wide array of different possible information sources working together to provide targets in close to real
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It does not always make tactical sense to attack hostile batteries the moment they are located. This is magnified by the challenges of targeting hostile batteries. There are many factors, and their significance depends on the circumstances. The first issue for targeting is that it is difficult to
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On the modern battlefield various radars are able to detect vehicles or stationary guns on the ground, although this is far from a perfect information source. Look-down radar from high altitude aircraft are able to detect vehicles over a very wide range, but are unable to determine what type of
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was introduced so that artillery could fire from behind cover to reduce its exposure to enemy artillery by making itself more difficult to find. While armies were doing this, little thought was given to the need for counter-counter measures. Perhaps the only means of finding concealed guns was
565:. The practice of embedding artillery assets within a civilian population to discourage enemy counter-battery fire, based on the assumption that a counter-battery strike would damage and destroy civilian infrastructures as well as killing innocent non-combatants. The
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vehicles they are and are susceptible to radar reflectors and similar countermeasures. The information is useful but requires further sources of information to accurately determine which contacts are the target. Millimeter wave radar (such as the
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units are also used if they are available and not fully occupied by their primary role. With conventional HE shells it may require the concentrated fire of 5–10 batteries to deal effectively with one hostile battery. Hence a value of
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were at corps level. However, the final year of World War 2 showed that the counter mortar battle was really one for brigade level. Since that war CB has tended to move to lower levels and in some armies has grown into a wider
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Of course there are many potential target nodes in the field artillery system, including those dedicated to finding hostile artillery. Attacking these may significantly blind the enemy's CB capability—counter-countermeasures.
549:. Introduction of guns with self-survey and orientation has led to the concept of gun maneuver areas where the troops, platoons or sections of a battery keep moving around, although it is questionable how sustainable this is.
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and information from prisoners are insufficiently precise to "fix" a target for artillery attack. Information from others may not be received quickly and hence be out of date, the hostile battery having moved.
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back to the hostile gun or mortar and study of fragments could reveal its type. However, while it was a useful source of information it was not sufficiently accurate to give a location for the firer.
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components. Counter-battery arrangements and responsibilities vary between nations but involve target acquisition, planning and control, and counter-fire. Counter-battery fire rose to prominence in
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and principles to CB. It uses information about hostile artillery from all sources to maintain detailed records and apply specialist techniques that exploit the nature of artillery fire to produce:
367:. It was therefore possible to deduce a mortar's position by tracking its bomb and recording two points on its trajectory. Another method that emerged was crater examination, this could reveal the
219:. However, effective counter-battery fire needs far more than a single method of observation. Counter-battery (CB) fire emerged and developed extremely quickly during
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systems track incoming rocket, artillery, and mortar fire and attempt to intercept and destroy the projectiles or provide early warning to the target area.
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Sound ranging systems have also evolved with newer technology, such as
Hostile Artillery Locating (HALO) and similar systems developed in other countries.
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A few armies established artillery observation patrol units to operate in likely artillery deployment areas behind the enemy's forward units.
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in World War II; while this could detect a shell in flight the gun that fired it could not usually be seen and the shell's elliptical
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An additional issue for the use of counter battery fire is the finite artillery resources available for use in a given situation.
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Most armies abandoned flash spotting in the 1950s. However, several new target acquisition technologies emerged. These included:
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vehicle or towed gun fires a single round or salvo and immediately begins moving. Shoot-and-scoot tactics were first used in
332:, and their technology improved, although flash spotting became less useful as ranges increased and flashless (or low flash)
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when
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to friendly forces, who can then fire on the enemy positions, hopefully before they can reposition (the "scoot" part of
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The final aspect of the CB equation is having available CB fire units and appropriate munitions. Typically these are
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Counter-battery fire, being prepared to reply to enemy counter-battery fire with counter-battery fire of your own.
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artillery is widely thought to be resistant to CB fire because of its deeply entrenched positions. More generally
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Sound ranging and flash spotting both required enemy guns to fire. Furthermore, other methods such as radio
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made it impossible to extrapolate backwards with the technology of that time. However, mortar bombs have a
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Spreading out. Increasing the dispersion of guns in a position has been aided by computers for technical
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detects incoming indirect fire and calculates its point of origin. That location data can be sent by a
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Intelligence about hostile artillery activity and deployment and assessments of its wider implications
406:, which can detect and locate radars, including those used by artillery is an often overlooked source.
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RADAR system and created the algorithms that could extrapolate a gun's position from a segment of an
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Artillery's
Astrologers: A History of British Survey and Mapping on the Western Front, 1914-1918
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Apart from balloons and officers' patrols, these sources continued to play their part in
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Counter-measures to CB fire have emerged throughout history. These include:
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Battlefield tactic employed to defeat the enemy's indirect fire elements
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Vol 2, McClelland & Stewart Ltd, Toronto/Montreal, 1972, pg 240
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The targets of CB fire are usually the enemy's guns, launchers and
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History of the Royal
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30:"Counterfire" redirects here. For the Marxist organization, see
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Concealment. While firing guns cannot escape sound-ranging and
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occasionally counter-mortar has been handled separately.
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Target acquisition is the source of information for CB
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Listening sets (i.e., monitoring enemy communications)
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There are four functions in the system for CB fire:
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Intercepted wireless (by wireless compass stations)
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520:Encasing guns in armour. Fully armoured
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281:Aeroplanes (i.e., visual observation)
234:and the men serving them. The formal
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117:December 2007
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203:Background
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157:elements (
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94:books
668:NATO
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236:NATO
165:and
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